KR880002737Y1 - Optical filter device - Google Patents

Abstract

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Description

Optical energy separator

1 and 2 are configuration diagrams for explaining an embodiment of the present invention, respectively.

* Explanation of symbols for main parts of the drawings

10,10 ₁ , 10 ₂ : Cone-shaped optical component separating member 20: Rotating shaft

The present invention relates to an apparatus for forming in an optical path of high energy density to separate light components in the optical path.

The present applicant has previously proposed various methods for concentrating sunlight into a photoconductor by using a lens or the like, transferring the photovoltaic light to an arbitrary desired place through the photoconductor, and providing the light to other uses.

By the way, in the case of using the optical energy transmitted as described above, there are various methods of using the optical energy including the full-wave component, but only using the optical energy of the characteristic components. There is also a way to use.

For example, the applicant has proposed to use the light energy transmitted in the photoconductor as a synthetic light source in culturing such as chlorella or the cultivation of plants, as described above. Ultraviolet rays, infrared rays, and the like are harmful to photosynthetic reaction.

In such a case, it is generally conceivable to select only a visible light component from the light energy transmitted as described above by using an optical filter, and to avoid using ultraviolet rays, infrared rays, or the like. The energy density is so high that the optical filter is thermally destroyed or thermally deteriorated.

In addition, there is a problem that the light components such as ultraviolet rays and infrared rays are simply discarded, and the use efficiency of light energy is very low.

The present invention has been made in view of the above situation, and particularly, in the optical path of high energy density, an optical component separation member passing through the optical component in a specific frequency range and reflecting the optical component in another frequency range is provided in the optical path. The present invention is intended to be rotatably installed with a predetermined inclination angle, thereby effectively separating the light components and preventing thermal destruction or thermal degradation of the light component separating member.

Referring to the configuration of the subject innovation according to the drawings as follows.

1 is a configuration diagram for explaining an embodiment of an optical energy separation device according to the present invention, in which (L) is an optical path of high energy density, and (10) is a desired structure for the optical path (L). A conical light component separating member formed to be rotatable with an inclination angle θ, wherein the inclination angle θ is preferably 45 °, but is not limited to 45 ', and (20) separates the light component of this conical shape. It is a rotation shaft of the member 10, and this optical component separation member 10 is comprised so that rotation is possible by the mover M about this rotation shaft 20. As shown in FIG.

The conical light component separating member 10 is composed of a member that transmits visible light and reflects ultraviolet rays and / or infrared rays. Therefore, the conical light component separating member 10 is formed in the optical path L. When formed with a predetermined inclination angle θ (preferably 45 ° but not limited to 45 °) with respect to L), the visible light component L ₁ in the optical path L is the conical light component separating member. (10) and infrared (L ₂ ) and / or ultraviolet (and X-ray) (L ₃ ) are reflected by this conical light component separating member (10), thereby chlorella culturing visible light component (L ₁ ). Used for cultivation of plants and plants, infrared (L ₂ ), ultraviolet (L ₃ ), etc. are used in other places.

In this case, as the light component separating member, for example, a color glass filter reflects only infrared rays, and when a thin metal adhesion is formed on the surface, ultraviolet rays and infrared rays can be reflected.

In this way, the present invention is capable of separating and extracting light of a desired frequency component from the optical path. When the optical energy density of the optical path is very high, the conical optical component separating member 10 may be thermally destroyed or thermally deteriorated. There is concern.

In this case, according to the present invention, the cone-shaped optical component separating member 10 is rotatably formed in the optical path, so that the position where the light hits the optical component separating member changes every moment, and thus the light at the same place for a long time. Is not touched, and the conical optical component separating member 10 is not heated, and is also cooled by wind generated by rotation, so that the optical component separating member is thermally destroyed or thermally deteriorated. There is no such occurrence.

The block diagram, and illustrated (10 ₁₎ is an infrared (L _2), only the reflection and the light component separation element that transmits the light components of the other (10 ₂₎ indicating another embodiment of the subject innovation degrees 2 UV A light component separating member that reflects (L ₃ ) (and infrared rays) and transmits other light components. In this way, infrared rays, ultraviolet rays and visible rays can be separated independently. In addition, in the above, an example in which the present invention was applied to a high energy density optical path focusing solar energy was described. Applicability to the light path in a light source containing a large amount of can be easily understood.

As apparent from the above description, according to the present invention, there is a remarkable effect that only the light components of the desired frequency range can be separated and extracted independently from each other in the optical path of high energy density.

Claims (2)

A conical light component separating member 10 that transmits a light component in a specific frequency range and reflects a light component in another frequency range, and the conical light component separating member 10 is predetermined with respect to the optical path L. An optical energy separation device characterized in that it is rotatably disposed by a motor (M) with an inclination angle (θ). The method of claim 1, wherein the light component passing through the optical component separation member 10 is a visible light component (L ₁ ), the reflected light component is characterized in that the infrared (L ₂ ) and or ultraviolet (L ₃ ). Optical energy separator.